RU2687814C1 - Device for treating amblyopia - Google Patents

Abstract

FIELD: medicine.SUBSTANCE: device for treating amblyopia comprises a binocular holder, on which for each eye there are mounted elements of electromagnetic action, made in form of infrared diodes and magnetic elements located on the line, which shape corresponds to the orbital part of the circular muscle of the eye, lasers and a unit for generating stimulating signals, the outputs of which are connected to elements of electromagnetic action. Binocular holder consists of body with BTE arches, facial mask adjacent to face to provide protection from external illumination, adjustment mechanism of center-to-center distance associated with lasers, with provision of their position in the center of pupils, and a light-protective pad located on the binocular holder housing outer side, as well as a control panel connected to the stimulating signals generation unit. Stimulating signal generation unit and the center-to-center distance adjustment mechanism are fixed on the body and located in the light-protective pad cavity.EFFECT: using the given invention enables higher clinical effectiveness and stability of the positive state of the patient's visual apparatus.4 cl, 6 dwg

Description

The invention relates to medicine, namely to ophthalmology, and can be used for the treatment of amblyopia.

A device for the treatment of amblyopia (RF patent No. 2027420 IPC A61F 9/00, dated 08.29.1991) is known, comprising a housing with elements of an electric circuit and controls, mounted on a rack a block with a reversing electric motor and an optical-optical channel that includes an eyepiece, the illuminator and light filters located between them, while the device is equipped with a rotatable holder installed between the illuminator and the eyepiece with a film of reflective material fixed in it with a layer of point-like blinding objects representing mic roscopic glass balls.

It is also known a device for treating amblyopia using pattern and color stimulation (RF Patent No. 2452437 IPC A61F 9/00, dated 06/16/2010), containing a tube covered with mirror plates, translucent multicolored elements of arbitrary shape and a light source, while using two interchangeable block with multi-colored elements with particle sizes of 3-4 mm with visual acuity ≥0.1 and 6-7 mm with visual acuity <0.1, and a multi-color LED is used as the light source.

A disadvantage of the known devices is the low efficiency and duration of treatment.

The closest in technical essence of the present invention is a known device for the treatment of amblyopia (RF patent №2129848 IPC A61F 9/00, dated 10.11.1996), containing a laser and representing a binocular frame in the form of two hollow truncated ellipsoids, connected by a flexible jumper, the cavity of each of which is located the magnetic circuit with an annular coil, under which is placed the light guide in the form of a disk with semiconductor lasers fixed around the disk circumference, between which sources of incoherent radiation are placed in ide IR diodes and laser located on the main axis of the ellipsoid, wherein a magnetic coil, infrared diodes and semiconductor lasers are arranged in accordance with the location of the orbital portion of the circular muscles of the eye with simultaneous exposure to the eye.

The disadvantage of this device for the treatment of amblyopia is the lack of effectiveness.

Technical and therapeutic result, which consists in increasing the effectiveness of treatment and ensuring the stability of the positive state of the patient's visual apparatus, is achieved in the proposed device, which contains a binocular frame, on which for each eye are mounted elements of electromagnetic exposure, made in the form of IR diodes and magnetic elements located on lines, the shape of which corresponds to the orbital part of the circular muscle of the eye, lasers and stimulating signal generation unit, the outputs of which connected to the elements of electromagnetic exposure, the fact that the binocular rim consists of a body with ear hooks, a face mask adjacent to the face with protection from external illumination, a mechanism for adjusting the center-to-center distance associated with the lasers, ensuring their position in the center of the pupils, and light-shielding lining located on the outer side of the binocular rim case, as well as the control panel connected to the stimulating signal generation unit.

At the same time, the stimulating signal generating unit contains a programmable microprocessor, electronic switches, a modulator and a power supply, and the magnetic elements are made in the form of miniature permanent magnets located inside the inductive elements, while the control panel is connected to the inputs of a programmable microprocessor, the outputs of which are connected via electronic switches to infrared diodes, lasers and control input of the modulator, the outputs of which are connected to inductive elements, and the elements of the impact mounted You are located on printed circuit boards and are arranged with a regular step along a closed path and alternating IR diodes and magnetic elements.

To ensure a snug fit to the face and protection from external illumination, the face mask is made of an elastic material.

The invention is illustrated by drawings, where:

in fig. 1 shows a binocular frame with elements of electromagnetic exposure;

in fig. 2 shows a binocular frame disassembled;

in fig. 3 shows the arrangement of the elements of electromagnetic exposure for two eyes and illustrates the connection of the center-to-center distance adjustment mechanism with lasers;

in fig. 4 shows a functional diagram of the device,

in fig. 5 shows a magnetic element;

in fig. 6 shows the construction of the mechanism for adjusting the center-to-center distance.

The device (Fig. 1 and Fig. 2) contains a binocular frame consisting of a housing 1 with ear flaps 2, a face mask 3 adjacent to the face with protection from external illumination, a mechanism 4 for adjusting the center distance, and a light-protective pad 5 located with the outer side of the body of the binocular rim.

Binocular frame contains printed circuit boards 6 (2 pcs.), On which elements of electromagnetic influence are mounted, made in the form of IR diodes 7 and magnetic elements 8, located on a line, the shape of which corresponds to the orbital part of the eye's circular muscle (Fig. 3).

In addition, there are low-power lasers 9, and inter-center distance adjustments associated with mechanism 4. The position of the lasers using the mechanism 4 is set at the center of the pupils of the patient's eyes.

The device also contains a block 10 of the formation of stimulating signals 10, to which the remote control panel 11 is connected (Fig. 4).

The stimulating signal generating unit 10 comprises a programmable microprocessor 12, electronic switches 13, a modulator 14 and a power supply 15, connected by respective poles to the common bus 16 and to the power supply bus of the functional units of the unit 10 and the control panel 11.

The magnetic elements 8 are made in the form of miniature permanent magnets 17 located inside the inductive elements 18, designed to modulate the magnetic field (Fig. 5).

When this remote control 11 is connected to the inputs of the programmable microprocessor 12, the outputs of which are connected via electronic keys 13 to the infrared diodes 8, lasers 9 and the control input of the modulator 14, the outputs of which are connected to inductive elements 18.

The elements of the impact of 7 and 8, mounted on printed circuit boards 6 are arranged with a regular step along a closed path and with the alternation of IR diodes 7 and magnetic elements 8.

The mechanism 4 for adjusting the center distance (Fig. 6) consists of two plates 19, on which lasers 9, gears 20 and gear rails 21 are mounted. The elements of the block 10 and the mechanism 4 are fixed on the housing 1 and located in the cavity of the light-protective lining 5 located with the outer sides of the body of the binocular rim.

The control panel 11 contains the keys for selecting parameters 22, 23, 24, the device start button 25 (“Start / Stop”) and the indicator 26.

The device works as follows.

First, the center-to-center distance L of the patient’s eyes is measured, and using the gear 20 and the gear racks 21 of the center-distance adjustment mechanism 4, the plates 19 are moved to a position where the lasers 9 are set to the required distance.

The patient is put on a binocular rim and fix its position.

Depending on the nature of the disease, the doctor determines the mode of therapeutic effects on each eye. In this case, one or two two channels of a binocular rim can be used respectively.

Impact parameters (pulse repetition frequency, duty cycle and pulse power, modulation depth of the magnetic field, exposure time) and the exposure sequence are set from the control panel 11 using the keys 22-24 and entered into the programmable microprocessor memory 12, from which outputs control signals via electronic the keys 13 are fed to the IR diodes 8, lasers 9 and the control input of the modulator 14, the outputs of which are connected to inductive elements 18.

The device allows the combined effect on the orbital part of the circular and longitudinal muscles of the eye and adjacent areas with non-coherent light radiation of IR diodes 7, modulated by the magnetic field of magnetic elements 8 and coherent radiation of low-power lasers 9 focused to the central region of the eyes at a point with a diameter of 0.6-1 1 mm.

The impact is carried out in stages.

At the initial stage, the circular and longitudinal muscles of the eye are affected for 3-5 minutes by light radiation in the infrared range.

In the following stages, exposure from IR-diodes 7 is carried out by pulsed radiation with a pulse duration of t = 3-50 μs and power_imp. up to 2.5 W, and then a series of pulses in the form of a meander for t = 3-7 minutes.

At the same time, the elements 8 are inducted with a constant and modulated magnetic field with an induction of up to 20-45 mT, a modulation depth of up to 65% and a pulsation frequency of the magnetic field in the range of 0.5-15 Hz.

This allows for a deeper penetration of infrared radiation and a magnetic field into the peripheral muscles of the eye, which, in turn, provides a more efficient stimulation of the eye muscles.

This also affects the region of the yellow spot of the retina by radiation from low-power lasers 9 alternately on each eye with a pulse repetition rate of up to 80.0 Hz and with focusing the radiation into the central region of the eye.

Such a complex modulated electromagnetic, pulsed infrared effect on the orbital part of the circular and longitudinal muscles of the eye and the laser effect on the back of the eye and the visual analyzer leads to a significantly more effective stimulation of electrogenesis, metabolism and hemodynamics of these structures of the eye, which leads to increased treatment efficiency and stability results.

The course of treatment consists of 3-6 sessions, held in 1-2 days.

Indications for the application of the proposed method are all types of amblyopia. Moreover, the impact can be carried out both on both eyes and on one of them.

Thus, the device is dynamically exposed to incoherent infrared radiation and a magnetic field on the orbital regions of the eye muscles. Such an effect allows one to achieve a deeper penetration of IR radiation and a magnetic field into the peripheral muscles of the eye, which, in turn, provides more effective stimulation and, as a result, reduction of treatment time (reduction of the number of sessions).

Complex therapeutic electromagnetic, infrared and laser effects on the posterior parts of the eye and intracranial parts of the visual analyzer stimulate electrogenesis, metabolism and hemodynamics, which increases the effectiveness of treatment and ensures the stability of results.

Treatment with the proposed device eliminates pain, discomfort, the occurrence of allergic reactions and intoxications.

The device is assembled on the available components and allows for multiple playback.

The frame is made of polymer materials by casting into special molds and by stamping.

The electronic unit for generating stimulating signals and control pools are implemented using modern analog and digital equipment.

The device was manufactured at the applicant company and was tested.

Claims (4)

1. Device for the treatment of amblyopia, containing a binocular frame, on which for each eye are mounted elements of electromagnetic exposure, made in the form of IR diodes and magnetic elements located on the line, the shape of which corresponds to the orbital part of the circular muscles of the eye, lasers and stimulating signal formation unit The outputs of which are connected to the elements of electromagnetic exposure, characterized in that the binocular frame consists of a body with earholes, a face mask adjacent to the face with protection against external illumination, the mechanism for adjusting the center-to-center distance associated with the lasers, ensuring their position in the center of the pupils, and the light-protective lining located on the outer side of the binocular frame, as well as the control panel connected to the stimulating signal generating unit, while the unit the formation of stimulating signals and the mechanism for adjusting the center-to-center distance are fixed on the body and located in the cavity of the light-protective lining. 2. A device for the treatment of amblyopia under item 1, characterized in that the block for generating stimulating signals contains a programmable microprocessor, electronic keys, modulator and power supply, and the magnetic elements are made in the form of miniature permanent magnets located inside the inductive elements, while the remote control control is connected to the inputs of a programmable microprocessor, the outputs of which are connected via electronic keys to IR diodes, lasers and the control input of the modulator, the outputs of which are connected to the inductive an apparent elements. 3. A device for the treatment of amblyopia under item 1, characterized in that the elements of the impact are mounted on printed circuit boards and are arranged with a regular step along a closed trajectory and alternating IR diodes and magnetic elements. 4. A device for the treatment of amblyopia under item 1, characterized in that the facial mask is made of elastic material.

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